KR102275251B1 - Display apparatus - Google Patents

Abstract

A display device according to an embodiment of the present invention includes a display module for displaying an image, a back cover mounted on the rear of the display module, and a middle cabinet disposed between the display module and the back cover, and forming a side bezel through a bending process. Including, two adjacent edges of the middle cabinet are characterized in that the male and female coupled to each other.

Description

display device {DISPLAY APPARATUS}

The present invention relates to a display device, and more particularly, to a display device having a middle cabinet forming a side bezel.

A display device is a device that displays a visual image, and generally refers to a device including a display panel such as a TV or a monitor. In recent years, in the field of display devices, thin and light flat panel display devices have formed the mainstream of the market.

Korean Patent Application Laid-Open No. 10-2013-0104674 discloses such a display device. The display device disclosed in the publication generally includes a display module for displaying an image, a back cover mounted on the rear of the display module, and a middle cabinet forming a side bezel between the display module and the back cover. Here, the middle cabinet requires stable coupling between adjacent edges in order to maintain or implement the shape of the middle cabinet.

In a conventional display device, adjacent edges are connected to each other by a separate metal bracket or the like for stable coupling between the edges. In addition, separate metal brackets and the like are respectively coupled to adjacent edges by fastening screws or the like.

However, in the conventional display device, a separate structure such as a metal bracket is required to implement and maintain the shape of the middle cabinet, and, as work such as screw fastening is involved, the manufacturing process is complicated and the manufacturing cost is also increased. have.

In addition, in the conventional display device, as a separate structure such as a metal bracket is additionally mounted, the thickness of the display device is inevitably increased, thereby hindering the recent slimming trend.

Accordingly, an object of the present invention is to provide a display device that is slimmer in accordance with a recent slimming trend by implementing a middle cabinet forming a side bezel through a simple process.

In order to achieve the above object, a display apparatus according to an embodiment of the present invention includes: a display module for displaying an image; a back cover mounted to the rear of the display module; and a middle cabinet disposed between the display module and the back cover and forming a side bezel through a bending process, wherein two adjacent edges of the middle cabinet are male and female coupled to each other. .

A male coupling part may be formed on one of the two adjacent edges, and a female coupling part may be formed on the other of the two adjacent edges.

The male coupling part is bent in any one direction of the display module direction and the back cover direction to prevent interference with adjacent edges during the bending process, and is bent in the opposite direction to be inserted into the arm coupling part when the bending is completed can get

The middle cabinet may include: an upper edge forming an upper bezel of the side bezel; a left edge extending from the upper edge and forming a left bezel of the side bezel; and a right edge extending from the upper edge and forming a right bezel of the side bezel, wherein the upper edge, the left edge, and the right edge may be formed through a bending process.

Female coupling parts each having a predetermined depth are formed at both ends of the upper edge, and male coupling parts inserted into the respective female coupling parts may be formed in the left edge and the right edge.

A first guide groove disposed adjacent to the arm coupling part may be formed at both ends of the upper edge, respectively.

A second guide groove disposed adjacent to the male coupling part may be formed in the left edge and the right edge, respectively.

The first guide groove and the second guide groove may be disposed to face each other with the male coupling part therebetween.

Male coupling portions each protruding to a predetermined length may be formed on both ends of the upper edge, and female coupling portions into which each male coupling portion is inserted may be formed on the left edge and the right edge.

A female coupling part having a predetermined depth is formed at a left end of the upper edge, a male coupling part protruding to a predetermined length is formed at a right end of the upper edge, and a male coupling part inserted into the female coupling part is formed in the left edge. and a female coupling part into which the male coupling part is inserted may be formed on the right edge.

A male coupling part protruding to a predetermined length is formed at the left end of the upper edge, a female coupling part having a predetermined depth is formed at the right end of the upper edge, and a female coupling part into which the male coupling part is inserted is formed in the left edge, , a male coupling part to be inserted into the female coupling part may be formed on the right edge.

Interference prevention grooves for preventing mutual interference during the bending process may be formed in the two adjacent edges.

The middle cabinet may be made of an aluminum material.

The display module may be a liquid crystal display module.

The display device may be a television.

According to various embodiments as described above, a middle cabinet forming a side bezel may be implemented through a simple process, and a slimmer display device may be provided according to the recent slimming trend.

1 is an exploded perspective view of a display device according to an embodiment of the present invention.
FIG. 2 is a perspective view of a first cabinet of a middle cabinet of the display device of FIG. 1 .
FIG. 3 is a front view of the first cabinet of FIG. 2 ;
4 is an enlarged view of part A of FIG. 2 .
FIG. 5 is an enlarged view of part B of FIG. 2 .
6 and 7 are views for explaining a state in which the first cabinet of FIG. 2 is fastened.
8 to 10 are views for explaining a manufacturing process of the first cabinet of FIG. 2 .
11 is a front view of a first cabinet according to another embodiment of the present invention.
12 is an enlarged view of part A of FIG. 11 .
13 is an enlarged view of part B of FIG. 11 .
14 is a front view of a first cabinet according to still another embodiment of the present invention.
15 is an enlarged view of part A of FIG. 14 .
FIG. 16 is an enlarged view of part B of FIG. 14 .
17 is a front view of a first cabinet according to another embodiment of the present invention.
18 is an enlarged view of part A of FIG. 17 .
19 is an enlarged view of part B of FIG. 17 .

The present invention will become more apparent by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings. It should be understood that the embodiments described herein are illustratively shown to aid understanding of the invention, and the present invention may be implemented with various modifications different from the embodiments described herein. In addition, in order to help the understanding of the invention, the accompanying drawings are not drawn to scale, but dimensions of some components may be exaggerated.

A display device is a device for displaying a visual image with a display for displaying an image, and includes a TV, a monitor, a laptop PC, a tablet PC, a smart phone, an electronic notebook (Personal Digital Assistant), an e-book reader, an electronic picture frame and a kiosk (KIOSK ), etc., may be various devices for displaying an image. Hereinafter, the display device in the present embodiment will be described by limiting it to a television.

1 is an exploded perspective view of a display device according to an embodiment of the present invention.

Referring to FIG. 1 , the display device 1 includes a display module 10 , a back cover 20 , and a middle cabinet 50 .

The display module 10 displays an image, and may include various display modules that display an image. The display module 10 is a flat panel display, and is one of a plasma display panel module, a liquid crystal display module, a light emitting diode module, and an organic light emitting diode module. can be provided. For example, when the display module 10 is a liquid crystal display module, the display module 10 may include a liquid crystal panel for displaying an image and a backlight unit for supplying light to the liquid crystal panel.

In addition, the display module 10 may be provided as a curved display or a flexible display instead of a flat panel display. Also, of course, the display module 10 may be provided as a touch-type display. Hereinafter, the display module 10 according to the present embodiment will be limitedly described as being a liquid crystal display module.

The back cover 20 is mounted on the rear side (-X-axis direction) of the display module 10 , and provides an accommodating space for accommodating various components of the display device 1 . The back cover 20 may be divided into an upper cover and a lower cover and provided as two members or may be formed as a single member.

The middle cabinet 50 is disposed between the display module 10 and the back cover 20 , and forms a side bezel of the display device 1 . The middle cabinet 50 includes a first cabinet 100 and a second cabinet 150 .

The first cabinet 100 forms a "C" shape, and may be made of an aluminum material in consideration of a design aspect. Hereinafter, the first cabinet 100 will be described in detail in the following related drawings.

The first cabinet 100 is mounted in front of the second cabinet 150 . The second cabinet 150 together with the first cabinet 100 forms a side bezel of the display device 10 . As such, the middle cabinet 50 may be formed by combining the first cabinet 100 and the second cabinet 150 . This is only an example, and the middle cabinet 50 may be formed of only the first cabinet 100 in the present embodiment according to design. If the middle cabinet 50 is formed using only the first cabinet 100 , a slimmer display device 1 according to the recent slimming trend can be implemented.

As described above, the middle cabinet 50 may be formed of a single member of only the first cabinet 100 or may be formed through coupling between a plurality of members such as the first cabinet 100 and the second cabinet 150 .

Hereinafter, the first cabinet 100 according to the present embodiment will be described in more detail.

FIG. 2 is a perspective view of a first cabinet of a middle cabinet of the display device of FIG. 1 , FIG. 3 is a front view of the first cabinet of FIG. 2 , FIG. 4 is an enlarged view of part A of FIG. 2 , and FIG. 5 is FIG. It is an enlarged view of part B of

2 to 5 , the first cabinet 100 includes an upper edge 110 , a left edge 160 , and a right edge 190 .

The upper edge 110 forms an upper bezel portion of the side bezel of the display device 1 . In the upper edge 110 , the arm coupling part 120 , the first guide groove 130 , the plurality of holes 140 , and the interference prevention groove 150 are formed.

The arm coupling part 120 is formed at both ends 112 and 114 of the upper edge 110 , respectively. The arm coupling part 120 formed on the left end 112 of the upper rim 110 has a predetermined depth in the right direction (+Y-axis direction), and the arm formed at the right end 114 of the upper rim 110 . The coupling part 120 has a predetermined depth in the left direction (-Y-axis direction).

The first guide groove 130 is formed at both ends 112 and 114 of the upper edge 110 , respectively. The first guide groove 130 is disposed adjacent to each of the arm coupling portions 120 . More specifically, the first guide groove 130 has a groove shape bent in an upward direction (+Z-axis direction) from the arm coupling part 120 . A protruding guide protrusion (not shown) for fixing the position of the first cabinet 100 is inserted into the first guide groove 130 when the shape of the male coupling part 170 to be described later is restored.

The plurality of holes 140 include a through hole 142 , an embossing hole 144 , and a screw fastening hole 146 .

The through hole 142 is a screw through hole 242 of the second cabinet 200 to be described later to pass through a screw member (S2, see FIG. 7) to be described later for connection with the back cover 20 (refer to FIG. 1). penetrate This is merely exemplary, and the through-hole may be arranged side by side with the screw through-hole 242 of the second cabinet 200 according to a design, and may penetrate the screw member S2.

Accordingly, the screw member S2 passes through the first cabinet 100 and the second cabinet 200 from the rear of the back cover 20 and is coupled to the display module 10, the display module 10 and the back cover 20 and the middle cabinet 50 may be coupled to each other.

The embossed hole 144 is provided between the through hole 142 and the screw fastening hole 146 to pass through the embossed portion (not shown) protruding from the rear of the display module 10 .

The screw fastening hole 146 is for coupling the first cabinet 100 and the second cabinet 200 . Unlike the previous screw through hole 146 , the screw member S1 is directly fastened to the screw fastening hole 146 . The screw fastening hole 146 is provided to correspond to the size of the screw member S1 , and generally has a smaller diameter than the through hole 142 .

The interference prevention groove 150 is for preventing interference between edges due to bending during a bending process, which will be described later, and is formed at the upper ends of both ends 112 and 114 of the upper edge 110 , respectively. Specifically, the anti-interference groove 150 is between the upper end of the left end 112 of the upper rim 110 and the upper end of the left rim 160 to be described later, and the upper end of the right end 114 of the upper rim 110 . and between the upper end of the right edge 190 to be described later, respectively. Due to the interference prevention groove 150 , it is possible to prevent flesh raising or rim position imbalance that may be caused by interference between edges that may occur during a bending process.

The left edge 160 vertically extends downward (-Z-axis direction) from the upper edge 110 , and forms a left bezel portion of the side bezel of the display device 1 . A plurality of holes 140 , an interference prevention groove 150 , a male coupling part 170 , and a second guide groove 180 are formed in the left edge 160 .

The plurality of holes 140 include various holes for fastening of the jig hole 148 and the structure. A jig (not shown) for fixing the first cabinet 100 during an anodizing process of the first cabinet 100 is mounted in the jig hole 148 . Anodizing is a post-treatment method for the surface of aluminum, and refers to coating an oxide coating on the surface of aluminum using an electrochemical reaction between aluminum and oxygen. In other words, it refers to a process for coloring the first cabinet 100 . This anodizing process may be performed after a bending process to be described later.

The left edge 160 forms an interference prevention groove 150 together with the upper edge 110 above. Since the interference prevention groove 150 has already been described, a detailed description thereof will be omitted below.

The male coupling part 170 protrudes a predetermined length from the upper end 162 of the left edge 160 in the right direction (+Y-axis direction), and the female coupling part formed in the left end 112 of the upper edge 110 ( 120) is inserted. In this case, the protrusion length of the male coupling part 170 is preferably formed to be smaller than the depth of the female coupling part 120 in consideration of manufacturing tolerances.

The male coupling part 170 is inserted into the female coupling part 120 to stably couple the left edge 160 to the upper edge 110 . The left edge 160 moves in the upper direction (+Z-axis direction) or in the lower direction (-Z-axis direction) through the male coupling part 170 inserted into the female coupling part 120 of the upper edge 110 or It is possible to prevent distortion due to rotation in the aforementioned directions. Accordingly, in the present embodiment, the shape implementation and maintenance of the left part of the first cabinet 100 can be stably achieved through the upper rim 110 and the left rim 160 that are male and female coupled to each other.

As a result, in the present embodiment, it is possible to easily implement and maintain the shape of the left part of the first cabinet 100 without a separate member such as a metal bracket and an additional fastening member such as an additional fastening screw for mounting the member.

The second guide groove 180 is formed in the upper end 162 of the left edge 160 , and is disposed adjacent to the male coupling portion 170 . More specifically, the second guide groove 180 has a groove shape bent in a downward direction (-Z-axis direction) from the male coupling portion 170 . In addition, the second guide groove 180 is disposed to substantially face the first guide groove 130 with the male coupling portion 170 interposed therebetween. The second guide groove 180 has a protruding guide protrusion (not shown) for fixing the position of the first cabinet 100 when the shape of the male coupling part 170 to be described later is restored like the first guide groove 130 . is inserted

The right edge 190 extends vertically downward (-Z-axis direction) from the upper edge 110 , and forms a right bezel portion of the side bezel of the display device 1 . The right edge 190 is disposed parallel to the left edge 160 .

The right edge 190 includes a plurality of holes 140 like the previous upper edge 110 and the left edge 160 . The plurality of holes 140 include various holes for fastening of the jig hole 148 and the structure, like the left edge 160 above. Since the jig hole 148 and various holes have been described above, a redundant description will be omitted below.

The right edge 190 forms an interference prevention groove 150 together with the upper edge 110 above. Since the interference prevention groove 150 has already been described, a detailed description thereof will be omitted below.

A male coupling part 170 is formed on the right edge 190 like the previous left edge 160 . That is, the male coupling part 170 is provided on the left edge 160 and the right edge 190 , respectively.

The male coupling part 170 provided on the right edge 190 protrudes a predetermined length from the upper end 192 of the right edge 190 in the left direction (-Y-axis direction), and the right end of the upper edge 110 ( It is inserted into the arm coupling part 120 formed in 114 . At this time, the protrusion length of the male coupling part 170 is also preferably formed to be smaller than the depth of the female coupling part 120 in consideration of manufacturing tolerances.

The male coupling part 170 provided on the right edge 190 is also inserted into the female coupling part 120 to stably couple the right edge 190 to the upper edge 110 . Therefore, through the male coupling part 170 inserted into the right edge 190, and also the female coupling part 120 of the upper edge 110, in the upper direction (+Z-axis direction) or in the lower direction (-Z-axis direction) It is possible to prevent distortion due to movement or rotation along the aforementioned directions. Accordingly, in the present embodiment, the shape implementation and maintenance of the right part of the first cabinet 100 can be stably achieved through the upper rim 110 and the right rim 190 that are male and female coupled to each other.

As a result, in the present embodiment, it is also possible to easily implement and maintain the shape of the right part of the first cabinet 100 without a separate member such as a metal bracket and a fastening member such as an additional fastening screw for mounting the member.

A second guide groove 180 is formed in the right edge 190 like the previous left edge 160 . That is, the second guide groove 180 is also provided on the left edge 160 and the right edge 190 , respectively.

The second guide groove 180 provided in the right edge 190 is formed in the upper end 192 of the right edge 190 , and is disposed adjacent to the male coupling part 170 provided in the right edge 190 . More specifically, the second guide groove 180 provided on the right edge 190 is formed with a groove bent in the downward direction (-Z-axis direction) from the male coupling portion 170 provided on the right edge 190 . In addition, the second guide groove 180 provided on the right edge 190 is also disposed to substantially face the first guide groove 130 with the male coupling part 170 provided on the right edge 190 interposed therebetween. . Also in the second guide groove 180 provided in the right edge 190 , there is a protruding guide protrusion (not shown) for fixing the position of the first cabinet 100 when the shape of the male coupling part 170 to be described later is restored. is inserted

As such, in the first cabinet 100 according to the present embodiment, two adjacent rims, that is, the upper rim 110 and the left rim 160 , and the upper rim 110 and the right rim 190 are fixed to each other by male and female coupling. do. That is, the arm coupling part 120 is formed in any one of the two adjacent borders (the upper edge 110 in this embodiment), and the other one of the two adjacent edges (the left edge 160 and the right edge in this embodiment) A male coupling part 170 inserted into the female coupling part 120 is formed on the edge 190 ).

Accordingly, in the present embodiment, the shape implementation and maintenance of the first cabinet 100 can be stably achieved without a separate member such as a metal bracket and a fastening member such as an additional fastening screw for mounting the member.

In addition, in this embodiment, the shape implementation and maintenance of the first cabinet 100 is achieved through male and female coupling between the edges, and bonding through a separate adhesive or the like for coupling between the edges of the first cabinet 100 is achieved. ) process, etc., it is possible to stably implement and maintain the shape of the first cabinet 100 without additional processes.

In addition, since the display device 1 according to the present embodiment does not require a member such as the aforementioned separate metal bracket, the thickness of the display device 1 can be reduced, resulting in a slimmer display according to the recent slimming trend. A device 1 may be provided.

Hereinafter, the coupling between the first cabinet 100 and other structures according to the present embodiment will be described in detail.

6 and 7 are views for explaining a state in which the first cabinet of FIG. 2 is fastened.

Referring to FIG. 6 , first, a structure of the second cabinet 200 will be described. A plurality of holes 240 are provided in the second cabinet 200 . The plurality of holes 240 includes a screw through hole 242 , an embossing hole 244 , and a screw fastening hole 246 .

The screw through-hole 242 penetrates the screw member S2 (refer to FIG. 7 ) and is provided at a position corresponding to the through-hole 142 to pass through the through-hole 142 of the first cabinet 100 .

The embossing hole 244 penetrates the embossing of the display module 10 (refer to FIG. 7 ) like the embossing 144 of the first cabinet 100 . Accordingly, the embossing hole 244 is provided at a position corresponding to the embossing hole 144 of the first cabinet 100 .

The screw fastening hole 246 is for coupling the first cabinet 100 and the second cabinet 200 . To this end, the screw fastening hole 246 is provided at a position corresponding to the screw fastening hole 146 of the first cabinet 100 . A screw member S1 for coupling the first cabinet 100 and the second cabinet 200 is fastened to the screw fastening hole 246 .

Hereinafter, looking at the fastening of the first cabinet 100 , first of all, the first cabinet 100 is combined with the second cabinet 200 from the front of the second cabinet 200 to complete the middle cabinet 50 . . Specifically, the screw member S1 is installed in the screw fastening hole 246 of the second cabinet 200 and the screw fastening hole 146 of the first cabinet 100 from the rear of the second cabinet 200 toward the front, respectively. It is fastened to couple the first cabinet 100 and the second cabinet 200 . The first cabinet 100 and the second cabinet 200 coupled through such fastening form the middle cabinet 50 .

Referring to FIG. 7 , after the middle cabinet 50 is coupled, the screw member S2 is mounted to the above-described components for coupling the display module 10 , the back cover 20 , and the middle cabinet 50 .

Specifically, the screw member S2 includes a screw hole 22 provided on the front surface 21 of the back cover 20 from the rear of the back cover 20 toward the front of the back cover 20 and the first cabinet. The screw through hole 242 of the second cabinet 200 inserted into the through hole 142 of 100 is sequentially passed through, and the rear surface of the display module 10 is screw-fastened. The display module 10 , the back cover 20 , and the middle cabinet 50 may be coupled to each other through screw fastening of the screw member S2 .

Meanwhile, the embossing provided on the rear surface of the display module 10 is inserted into the embossing hole 144 of the middle casing 50 when the screw member S2 is screwed. Due to the insertion of the emboss into the embossing hole 144, the display module 10 and the middle casing 50 can maintain a stable arrangement when screwing.

Hereinafter, the manufacturing process of the first cabinet 100 according to the present embodiment will be described in more detail.

8 to 10 are views for explaining a manufacturing process of the first cabinet of FIG. 2 .

Referring to FIG. 8 , the manufacturer or the like bends the left and right portions of the first cabinet 100 , which are single members manufactured by an extrusion process, etc. to a predetermined length, respectively. On the other hand, before the bending process, the first cabinet 100 is preceded by a shape processing process for the various components discussed above. Through the bending process, the first cabinet 100 is divided into the upper edge 110 , the left edge 160 , and the right edge 190 as seen above, and forms a “C” shape.

Meanwhile, during the bending process, the male coupling part 170 formed on the left edge 160 and the right edge 190 may interfere with the upper edge 110 due to the protruding structure. Here, the interference refers to bending the left edge 160 and the right edge 190 so that, during the bending process, the protruding male coupling part 170 collides with the upper edge 110 , and is vertically disposed with the upper edge 110 . say it can't be done

In order to solve this problem, the manufacturer, etc., during the bending process, the male coupling portion 170 and the adjacent edge (in this embodiment, the upper edge 110) to prevent interference of the male coupling portion 170 to the display module 10, 1) and the back cover 20 (refer to FIG. 1), in one direction. Hereinafter, in this embodiment, the description is limited to bending the male coupling part 170 in the direction of the display module 10 .

Referring to FIG. 9 , during the bending process, the male coupling part 170 provided on the right edge 190 due to the male coupling part 170 bent in the direction of the display module 10 does not interfere with the upper edge 110 . may not be Accordingly, the upper edge 110 and the right edge 190 may be disposed to form a right angle to each other. At this time, the bent male coupling part 170 is disposed on the female coupling part 120 so as to be inserted into the female coupling part 120 of the upper edge 110 thereafter. Although not shown, the male coupling part 170 provided on the left edge 160 is also bent in the same way, so that the upper edge 110 and the left edge 160 are disposed to form a right angle to each other.

When the bending process is completed, it is necessary to restore the shape of the bent male coupling part 170 to its original state so that the male coupling part 170 can be inserted into the female coupling part 190 . Restoring the original state means that the male coupling part 170 bent in one direction is bent again in the reverse direction of the one direction to make the initial shape. Referring to FIG. 10 , the manufacturer restores the bent male coupling part 170 to its original state and inserts the male coupling part 170 into the female coupling part 190 .

At this time, the arrangement shape of the upper edge 110 and the left edge 190 or the right edge 160 of the upper edge 110 may be changed due to the restoration of the male coupling part 170 . In order to prevent this and to easily restore the male coupling part 170, the first cabinet 100 is fixed on a separate structure (not shown) provided with a guide protrusion (not shown) formed to protrude the male coupling part 170 . ), it is preferable to perform the restoration process. That is, the manufacturer controls the posture of the first cabinet 100 by inserting guide projections into the first guide groove 130 and the second guide groove 180, respectively, and then returns the shape of the male coupling part 170 to its original state. restore According to the restoration of the shape of the male coupling part 170 , the male coupling part 170 may be naturally inserted and fitted into the female coupling part 190 .

Finally, a manufacturer or the like applies an oxide coating to the first cabinet 100 by performing an anodizing process. At this time, a jig (not shown) for fixing the first cabinet 100 is inserted and mounted in the jig hole 148 of the first cabinet 100 .

As such, in the present embodiment, it is possible to manufacture the first cabinet 100 capable of stably implementing and maintaining a shape through such a simple process.

Hereinafter, the first cabinet according to various embodiments of the present invention will be described in detail.

11 is a front view of a first cabinet according to another embodiment of the present invention, FIG. 12 is an enlarged view of part A of FIG. 11 , and FIG. 13 is an enlarged view of part B of FIG. 11 .

Hereinafter, since the first cabinet 300 according to the embodiment is substantially the same as or similar to the first cabinet 100 in the previous embodiment, the same or similar components will not be repeatedly described, but will be described based on differences. do.

11 to 13 , the first cabinet 300 includes an upper edge 310 , a left edge 360 , and a right edge 390 .

A male coupling part 320 , a plurality of holes 340 , and an interference prevention groove 350 are formed in the upper edge 310 .

The male coupling part 320 is formed to protrude from both ends 312 and 314 of the upper edge 310, respectively. That is, in this embodiment, unlike the previous embodiment, the male coupling part 320 is formed to protrude from the upper edge 310 rather than the female coupling part.

The plurality of holes 340 includes a screw through hole 342 , an embossed through hole 344 , and a screw fastening hole 346 . Since the screw through hole 342 , the embossed through hole 344 , and the screw fastening hole 346 are substantially the same as in the previous embodiment, a redundant description will be omitted below.

Interference prevention groove 350, also, since it is substantially the same as the previous embodiment, hereinafter, redundant description will be omitted.

The left edge 360 and the right edge 390 each include a jig hole 348 as a plurality of holes 340 in front. Since the jig hole 348 is substantially the same as the previous embodiment, a redundant description will be omitted below.

A female coupling part 370 into which the male coupling part 320 of the upper edge 310 is inserted is formed in the left edge 360 and the right edge 390 , respectively. That is, in this embodiment, unlike the previous embodiment, the female coupling part 370 is formed on the left edge 360 and the right edge 390 instead of the male coupling part. As such, in the first cabinet 300 according to the present embodiment, the male coupling part 320 and the female coupling part 370 are formed at positions opposite to each other in the previous embodiment.

A second guide groove 384 is formed in the left edge 360 and the right edge 390 , respectively. The second guide groove 384 is disposed adjacent to the arm coupling portion 370 . More specifically, the second guide groove 384 has a groove shape bent downward from the arm coupling part 370 (-Z-axis direction).

As such, in this embodiment, only the second guide groove 384 is provided, and unlike the previous embodiment, the first guide groove is not provided. Of course, this is only an example, and according to the design, it is also possible that the first guide groove is provided as in the previous embodiment.

14 is a front view of a first cabinet according to still another embodiment of the present invention, FIG. 15 is an enlarged view of part A of FIG. 14 , and FIG. 16 is an enlarged view of part B of FIG. 14 .

Hereinafter, since the first cabinet 400 according to the embodiment is substantially the same as or similar to the first cabinets 100 and 300 in the previous embodiment, the differences will be described without repeating the same or similar components. explained in the center.

14 to 16 , the first cabinet 400 includes an upper edge 410 , a left edge 460 , and a right edge 490 .

A female coupling part 422 , a male coupling part 424 , a first guide groove 430 , a plurality of holes 440 , and an interference preventing groove 450 are formed in the upper edge 410 .

The female coupling part 422 is formed at the left end 412 of the upper edge 410 . The arm coupling part 422 has a predetermined depth in the right direction (+Y-axis direction). The male coupling portion 424 is formed at the right end 414 of the upper rim 410 . The male coupling part 424 is formed to protrude to have a predetermined length in the right direction (+Y-axis direction). As such, in this embodiment, both the female coupling part 422 and the male coupling part 424 are formed on the upper edge 410 .

The first guide groove 430 is formed in the left end 412 of the upper edge 410 . The first guide groove 430 is disposed adjacent to the arm coupling portion 422 . More specifically, the first guide groove 430 has a groove shape bent in an upward direction (+Z-axis direction) from the arm coupling part 422 .

The plurality of holes 440 include a screw through hole 442 , an embossed through hole 444 , and a screw fastening hole 446 . Since the screw through hole 442 , the embossed through hole 444 and the screw fastening hole 446 are substantially the same as in the previous embodiment, a redundant description will be omitted below.

Interference prevention groove 450, also, since it is substantially the same as the previous embodiment, a redundant description will be omitted below.

The left edge 460 includes a jig hole 448 as the previous plurality of holes 440 . Since the jig hole 448 is substantially the same as the previous embodiment, a redundant description will be omitted below.

In addition, a male coupling part 472 and a second guide groove 480 are formed in the left edge 460 .

The male coupling part 472 protrudes a predetermined length in the right direction (+Y-axis direction) from the upper end 462 of the left edge 460, and the female coupling part formed in the left end 412 of the upper edge 410 ( 422) is inserted.

The second guide groove 480 is formed in the upper end 462 of the left edge 460 and is disposed adjacent to the male coupling portion 472 . More specifically, the second guide groove 480 has a groove shape bent in a downward direction (-Z-axis direction) from the male coupling portion 472 .

The right edge 490 includes a jig hole 448 as the previous plurality of holes 440 . Since the jig hole 448 is substantially the same as the previous embodiment, a redundant description will be omitted below.

In addition, a female coupling part 492 into which the male coupling part 424 of the upper edge 410 is inserted is formed in the right edge 490 . That is, in this embodiment, the male coupling part 472 is formed on the left edge 460 , and the female coupling part 492 is formed on the right edge 490 .

In addition, a second guide groove 496 is formed in the right edge 490 . The second guide groove 496 is disposed adjacent to the arm engaging portion 492 . More specifically, the second guide groove 496 has a groove shape bent downward from the arm coupling portion 492 (-Z-axis direction).

17 is a front view of a first cabinet according to another embodiment of the present invention, FIG. 18 is an enlarged view of part A of FIG. 17 , and FIG. 19 is an enlarged view of part B of FIG. 17 .

Hereinafter, since the first cabinet 500 according to the embodiment is substantially the same as or similar to the first cabinets 100 , 300 , and 400 in the previous embodiment, the same or similar components will not be repeatedly described. The differences are mainly explained.

17 to 19 , the first cabinet 500 includes an upper edge 510 , a left edge 560 , and a right edge 590 .

A male coupling part 522 , a female coupling part 524 , a first guide groove 530 , a plurality of holes 540 , and an interference preventing groove 550 are formed in the upper edge 510 .

The male coupling part 522 is formed to protrude from the left end 512 of the upper edge 510 in the left direction (-Y-axis direction) to have a predetermined length. The female coupling part 524 is formed at the right end 512 of the upper edge 510 . The arm coupling portion 524 has a predetermined depth in the left direction (-Y-axis direction). In this embodiment, the male coupling part 522 and the female coupling part 524 formed on the upper edge 510 are formed at positions opposite to each other in the previous embodiment.

The first guide groove 530 is formed in the right end 514 of the upper edge 510 . The first guide groove 530 is disposed adjacent to the arm coupling portion 524 . More specifically, the first guide groove 530 has a groove shape bent in an upward direction (+Z-axis direction) from the arm coupling part 524 .

The plurality of holes 540 includes a screw through hole 542 , an embossed through hole 544 , and a screw fastening hole 546 . Since the screw through hole 542, the embossed through hole 544, and the screw fastening hole 546 are substantially the same as in the previous embodiment, a redundant description will be omitted below.

Interference prevention groove 550, also, since it is substantially the same as the previous embodiment, hereinafter, redundant description is omitted.

The left edge 560 includes a jig hole 548 as the previous plurality of holes 540 . Since the jig hole 548 is substantially the same as the previous embodiment, a redundant description will be omitted below.

In addition, the arm coupling part 570 and the second guide groove 584 are formed in the left edge 560 .

The female coupling part 570 has a predetermined depth in the left direction (-Y-axis direction), and the male coupling part 522 of the upper edge 510 is inserted. The second guide groove 584 is disposed adjacent to the arm coupling portion 570 . More specifically, the second guide groove 584 has a groove shape bent downward (-Z-axis direction) from the arm coupling portion 570 .

The right edge 590 includes a jig hole 548 as the previous plurality of holes 540 . Since the jig hole 548 is substantially the same as the previous embodiment, a redundant description will be omitted below.

In addition, a male coupling part 592 and a second guide groove 594 are formed in the right edge 590 .

The male coupling part 592 protrudes a predetermined length from the upper end 591 of the right edge 590 in the right direction (+Y-axis direction), and a female coupling part formed at the right end 514 of the upper edge 510 ( 524) is inserted. That is, in the present embodiment, the female coupling part 570 is formed on the left edge 560 , and the male coupling part 592 is formed on the right edge 590 .

The second guide groove 594 is formed in the upper end 591 of the right edge 590 and is disposed adjacent to the male coupling portion 592 . More specifically, the second guide groove 594 has a groove shape bent downward (-Z-axis direction) from the male coupling portion 592 .

As such, the positions of the male coupling part and the female coupling part for male and female coupling between adjacent edges may be appropriately changed according to design. This is only an example, and as long as it is possible to form a male-female coupling between adjacent edges, it is of course also possible to form other structures.

In addition, if the first guide groove and the second guide groove have a structure in which the protruding guide protrusion for stably fixing the first cabinet can be inserted when the position of the male coupling part is restored, the shape, the provided position, and the provided number are also exemplary. Of course, it is also possible to form in other structures.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

1: display device 10: display module
20: back cover 50: middle cabinet
100: first cabinet 110: upper edge
120: arm coupling part 130: first guide groove
140: a plurality of holes 150: anti-interference groove
160: left edge 170: male coupling part
180: second guide groove 190: right edge
200: second cabinet

Claims (15)

In the display device,
a display module for displaying an image;
a back cover mounted to the rear of the display module; and
a middle cabinet disposed between the display module and the back cover and forming a side bezel through a bending process;
A male coupling part is formed on any one of the two adjacent edges of the middle cabinet,
A female coupling part is formed on the other of the two adjacent edges so that the two adjacent edges of the middle cabinet are male and female coupled to each other,
The male coupling part
It is characterized in that the bending process is formed to be bent in any one of the direction of the display module and the direction of the back cover to prevent interference with adjacent edges during the bending process.
display device. delete According to claim 1,
The male coupling part,
When the bending process is completed, the display device is bent in a reverse direction of the one direction so as to be inserted into the arm coupling part. According to claim 1,
The middle cabinet,
an upper edge forming an upper bezel of the side bezel;
a left edge extending from the upper edge and forming a left bezel of the side bezel; and
and a right edge extending from the upper edge and forming a right bezel of the side bezel.
The upper edge, the left edge, and the right edge are formed through a bending process. 5. The method of claim 4,
At both ends of the upper rim, arm coupling portions each having a predetermined depth are formed,
The display device, characterized in that the male coupling portion inserted into each of the female coupling portion is formed on the left edge and the right edge. 6. The method of claim 5,
First guide grooves disposed adjacent to the arm coupling part are formed at both ends of the upper edge, respectively. 7. The method of claim 6,
A second guide groove disposed adjacent to the male coupling part is formed in the left edge and the right edge, respectively. 8. The method of claim 7,
The display device, characterized in that the first guide groove and the second guide groove are disposed to face each other with the male coupling portion therebetween. 5. The method of claim 4,
Male coupling portions each protruding to a predetermined length are formed at both ends of the upper rim,
The display device, characterized in that the left edge and the right edge is a display device, characterized in that the female coupling portion is formed to insert each male coupling portion. 5. The method of claim 4,
A female coupling part having a predetermined depth is formed at the left end of the upper edge, and a male coupling part protruding to a predetermined length is formed at the right end of the upper edge,
A male coupling part inserted into the female coupling part is formed on the left edge, and a female coupling part into which the male coupling part is inserted is formed on the right edge. 5. The method of claim 4,
A male coupling part protruding to a predetermined length is formed at the left end of the upper rim, and a female coupling part having a predetermined depth is formed at the right end of the upper rim,
The display device according to claim 1, wherein a female coupling part into which the male coupling part is inserted is formed on the left edge, and a male coupling part inserted into the female coupling part is formed on the right edge of the left edge. According to claim 1,
The display apparatus according to claim 1, wherein an interference preventing groove for preventing mutual interference during the bending process is formed in the two adjacent edges. According to claim 1,
The middle cabinet is a display device, characterized in that made of an aluminum material. According to claim 1,
The display module is a display device, characterized in that the liquid crystal display module. According to claim 1,
The display device is a television, characterized in that the display device.

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